US11860110B2 - Article inspection apparatus using spectrum analyzer - Google Patents

Article inspection apparatus using spectrum analyzer Download PDF

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Publication number
US11860110B2
US11860110B2 US17/814,034 US202217814034A US11860110B2 US 11860110 B2 US11860110 B2 US 11860110B2 US 202217814034 A US202217814034 A US 202217814034A US 11860110 B2 US11860110 B2 US 11860110B2
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Prior art keywords
article
value
light
tablet
threshold value
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US17/814,034
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US20230035626A1 (en
Inventor
Shigeo Arai
Eiji Taniguchi
Takashi Suzuki
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Anritsu Corp
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Anritsu Corp
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Assigned to ANRITSU CORPORATION reassignment ANRITSU CORPORATION ASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS). Assignors: ARAI, SHIGEO, SUZUKI, TAKASHI, TANIGUCHI, EIJI
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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N21/00Investigating or analysing materials by the use of optical means, i.e. using sub-millimetre waves, infrared, visible or ultraviolet light
    • G01N21/84Systems specially adapted for particular applications
    • G01N21/88Investigating the presence of flaws or contamination
    • G01N21/95Investigating the presence of flaws or contamination characterised by the material or shape of the object to be examined
    • G01N21/9508Capsules; Tablets
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N21/00Investigating or analysing materials by the use of optical means, i.e. using sub-millimetre waves, infrared, visible or ultraviolet light
    • G01N21/84Systems specially adapted for particular applications
    • G01N2021/845Objects on a conveyor
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N21/00Investigating or analysing materials by the use of optical means, i.e. using sub-millimetre waves, infrared, visible or ultraviolet light
    • G01N21/84Systems specially adapted for particular applications
    • G01N21/88Investigating the presence of flaws or contamination
    • G01N21/8806Specially adapted optical and illumination features

Definitions

  • the present invention relates to an article inspection apparatus.
  • Patent Document 1 describes a tablet inspection apparatus that irradiates a tablet with light from a light source and inspects the quality of the tablet according to the spectral characteristics of a transmitted light emitted from the tablet.
  • NIR near-infrared
  • an object of the present invention to provide an article inspection apparatus capable of sensitively and stably detecting a change in a spectrum when an unspecified foreign substance is contained and determining a defective product.
  • An article inspection apparatus includes a transport unit that transports an article for inspection to an article inspection position, a light irradiation unit that irradiates the article transported to the article inspection position with light, a light detection unit that detects light transmitted through or reflected from the article, and an article inspection unit that inspects a quality of the article based on spectral characteristics of the light detected by the light detection unit, and the article inspection unit standardizes a measured value of a spectrum of the light detected by the light detection unit for each wavelength and determines whether the article is a normal product or a defective product based on a standardized value.
  • the measured value for each wavelength of the measured spectrum is standardized, and it is determined whether the article is a normal product or a defective product based on the standardized value. Therefore, when an unspecified foreign substance is contained, the change in the spectrum can be sensitively and stably detected, and the article can be determined as a defective product.
  • the article inspection unit calculates a statistical value of the measured value for each wavelength of the spectrum of the light detected by the light detection unit, and standardizes the measured value for each wavelength based on the statistical value.
  • the statistical value of the measured value for each wavelength of the spectrum of the spectral characteristics of the light detected by the light detection unit is calculated, and the measured value for each wavelength is standardized based on the statistical value. Therefore, when an unspecified foreign substance is contained, the change in the spectrum can be sensitively and stably detected, and the article can be determined as a defective product.
  • the article inspection unit determines whether the article is a normal product or a defective product based on a threshold value for the standardized value.
  • the article inspection unit determines whether the article is a normal product or a defective product based on a threshold value for the standardized value.
  • the article inspection unit sets, as the threshold value for the standardized value, an upper limit threshold value which is an upper limit value for determining that the standardized value is normal and a lower limit threshold value which is a lower limit value for determining that the standardized value is normal.
  • the article inspection unit sets, as the threshold value for the standardized value, an upper limit threshold value which is an upper limit value for determining that the standardized value is normal and a lower limit threshold value which is a lower limit value for determining that the standardized value is normal.
  • the article inspection unit determines whether the article is a normal product or a defective product based on a threshold value for an absolute value of the standardized value.
  • the article inspection unit determines whether the article is a normal product or a defective product based on a threshold value for an absolute value of the standardized value.
  • the article inspection unit sets the threshold value for the standardized value for each range divided in a wavelength direction.
  • the threshold value is set for each range divided in the wavelength direction. Therefore, depending on the characteristics of the article, a normal range can be narrowed or widened for each range of wavelengths, and it is possible to accurately determine whether the article is a normal product or a defective product.
  • the article inspection unit sets the threshold value for the standardized value for each range divided in a wavelength direction.
  • the threshold value is set for each range divided in the wavelength direction. Therefore, depending on the characteristics of the article, a normal range can be narrowed or widened for each range of wavelengths, and it is possible to accurately determine whether the article is a normal product or a defective product.
  • the article inspection unit sets a range of wavelengths in which it is not determined whether the article is a normal product or a defective product by using the threshold value.
  • a range of wavelengths is provided in which it is not determined whether the article is a normal product or a defective product based on the threshold value. Therefore, a range of wavelengths that is not related to the determination of whether the article is a normal product or a defective product can be set as a range in which it is not determined whether the article is a normal product or a defective product, and it is possible to accurately determine whether the article is a normal product or a defective product by suppressing the influence of the value in the range of wavelengths that is not related to the determination.
  • the article inspection unit sets a range of wavelengths in which it is not determined whether the article is a normal product or a defective product by using the threshold value.
  • a range of wavelengths is provided in which it is not determined whether the article is a normal product or a defective product based on the threshold value. Therefore, a range of wavelengths that is not related to the determination of whether the article is a normal product or a defective product can be set as a range in which it is not determined whether the article is a normal product or a defective product, and it is possible to accurately determine whether the article is a normal product or a defective product by suppressing the influence of the value in the range of wavelengths that is not related to the determination.
  • the threshold value is set based on a standardized value of a measured value of a normal product of the article.
  • the threshold value is set based on the standardized value of the measured value of the normal product of the article. Therefore, the threshold value can be set by reflecting the characteristics of the normal product, and it is possible to accurately determine whether the article is a normal product or a defective product.
  • the threshold value is set based on a standardized value of a measured value of a normal product of the article.
  • the threshold value is set based on the standardized value of the measured value of the normal product of the article. Therefore, the threshold value can be set by reflecting the characteristics of the normal product, and it is possible to accurately determine whether the article is a normal product or a defective product.
  • the article inspection unit standardizes a value of a result obtained by performing spectrum conversion processing on the spectrum of the light detected by the light detection unit for each wavelength, and determines whether the article is a normal product or a defective product based on the standardized value.
  • the value of the result obtained by performing the spectrum conversion processing on the spectrum of the spectral characteristics of the light detected by the light detection unit is standardized for each wavelength, and it is determined whether the article is a normal product or a defective product based on the standardized value. Therefore, when an unspecified foreign substance is contained, the change in the spectrum can be sensitively and stably detected, and the article can be determined as a defective product.
  • the article inspection unit standardizes a value of a result obtained by performing spectrum conversion processing on the spectrum of the light detected by the light detection unit for each wavelength, and determines whether the article is a normal product or a defective product based on the standardized value.
  • the value of the result obtained by performing the spectrum conversion processing on the spectrum of the spectral characteristics of the light detected by the light detection unit is standardized for each wavelength, and it is determined whether the article is a normal product or a defective product based on the standardized value. Therefore, when an unspecified foreign substance is contained, the change in the spectrum can be sensitively and stably detected, and the article can be determined as a defective product.
  • the present invention can provide an article inspection apparatus capable of sensitively and stably detecting a change in a spectrum when an unspecified foreign substance is contained and determining a defective product.
  • FIG. 1 is a schematic plan view of an article inspection apparatus according to an embodiment of the present invention.
  • FIG. 2 is a cross-sectional view of a supply container of the article inspection apparatus according to the embodiment of the present invention cut in the direction II-II of FIG. 1 .
  • FIG. 3 is an enlarged view of a part of a groove portion and a storage portion of an outer transport unit of the article inspection apparatus according to the embodiment of the present invention.
  • FIG. 4 is an arrow cross-sectional view in the direction IV-IV of FIG. 3 .
  • FIG. 5 is a view of a cross section in the direction V-V of FIG. 3 viewed from diagonally above.
  • FIG. 6 is a schematic configuration diagram of an article inspection unit provided at an article inspection position of the article inspection apparatus according to the embodiment of the present invention.
  • FIG. 7 is a graph illustrating an example of standardization of a spectrum of spectral characteristics of the article inspection apparatus according to the embodiment of the present invention.
  • FIG. 8 is a graph illustrating an example of a threshold value of a value after standardization of the article inspection apparatus according to the embodiment of the present invention.
  • FIG. 9 is a graph illustrating an example of a threshold value based on an absolute value of a value after standardization of the article inspection apparatus according to the embodiment of the present invention.
  • FIG. 10 is a graph illustrating an example in which the threshold value of a value after standardization of the article inspection apparatus according to the embodiment of the present invention is divided in the wavelength direction.
  • FIG. 11 is a graph illustrating an example of providing a range of wavelengths in which a normal product or a defective product is not determined based on a threshold value of a value after standardization of the article inspection apparatus according to the embodiment of the present invention.
  • an article inspection apparatus 1 irradiates light at a predetermined article inspection position while arranging the articles to be inspected and transporting the articles individually, and inspects the quality of the article based on the spectral characteristics of the light irradiated and then transmitted through the article.
  • the article to be inspected is an article having a small diameter whose light irradiation region is relatively close to the diameter of the irradiation port for irradiating the article to be inspected with light, and includes an article having a predetermined shape and a molded article manufactured by an existing manufacturing facility or a manufacturing facility having no inspection function, and particularly an article whose shape does not change during the transportation process, in addition to an article having an outer diameter cp: several mm to several tens of mm that can be transported individually without packaging, and a bite-sized article.
  • Examples of the articles include a tablet, a capsule, a troche, a preparation such as a drop, a candy, a chocolate, and the like.
  • a tablet W having a circular shape in a plan view and a substantially columnar in a side view having a small height (thickness) compared to the diameter will be described as an example.
  • the tablet W of the present embodiment constitutes an article.
  • the article inspection apparatus 1 is provided with an article transport device 2 that transports the tablet W along a circumferential transport course, and an article inspection unit 3 that inspects the tablets W at an article inspection position P 5 in the middle of the transport course.
  • a supply container 10 is formed in a circular shape in which the upper surface is opened and the cross-sectional area gradually decreases from the upper surface to the lower side.
  • the supply container 10 is a horizontal annular flange provided in the opening portion 10 a on the upper surface with a predetermined width over the entire circumference, and is provided with an outer transport unit 12 serving as a transport path for the tablet W, a circular bottom wall 13 having a through-hole 13 b in a part and having a diameter smaller than that of the outer transport unit 12 , and a cylindrical side wall 14 connecting the outer transport unit 12 and the bottom wall 13 .
  • An inner transport unit 11 of the present embodiment is provided inward in the radial direction of the outer transport unit 12 .
  • the outer transport unit 12 is provided on the outer side in the radial direction of the inner transport unit 11 so as to surround the periphery of the inner transport unit 11 in the top view of the article transport device 2 .
  • the supply container 10 is rotatably attached to a main body frame (not illustrated).
  • the axis of rotation of the supply container 10 passes through the center of the bottom wall 13 and coincides with a line perpendicular to the bottom wall 13 .
  • An annular internal tooth gear 10 b is fixed to the lower surface of the bottom wall 13 of the supply container 10 with the center aligned with the bottom wall 13 .
  • a first motor 21 is attached to the main body frame, and a pinion 22 provided on a drive shaft 21 a of the first motor 21 meshes with the internal tooth gear 10 b .
  • the supply container 10 (outer transport unit 12 ) rotates around the rotation center axis in the rotation direction A (refer to FIG. 1 ).
  • the rotation direction A of the supply container 10 is the counterclockwise rotation direction in a plan view of the article transport device 2 .
  • the inner transport unit 11 is inclined and disposed inside the supply container 10 . Since the diameter of the inner transport unit 11 is larger than the diameter of the bottom wall 13 of the supply container 10 , the inner transport unit 11 can be inclined and stored in the supply container 10 . That is, since the supply container 10 is formed in a circular shape in which the upper surface is open and the cross-sectional area decreases from the upper surface toward the bottom wall 13 , the inner transport unit 11 can be inclined and stored in the supply container 10 .
  • an upper end portion 11 b of the inner transport unit 11 in the inclined direction faces an upper edge of the side wall 14 of the supply container 10
  • a lower end portion 11 c of the inner transport unit 11 in the inclined direction located 180° opposite to the upper end portion 11 b in the circumferential direction, faces a lower edge of the side wall 14 of the supply container 10 .
  • the lower end portion 11 c of the inner transport unit 11 in the inclined direction has the lowest portion facing the lower edge of the side wall 14 of the supply container 10
  • the upper end portion 11 b of the inner transport unit 11 in the inclined direction has the highest portion facing the upper edge of the side wall 14 of the supply container 10 .
  • a drive shaft 11 a (refer to FIG. 2 ) is fixed perpendicularly to the inner transport unit 11 at the center of the lower surface of the inner transport unit 11 , and the drive shaft 11 a is connected to a second motor 23 (refer to FIG. 2 ) by inserting the through-hole 13 b of the bottom wall 13 of the supply container 10 in an inclined state.
  • the second motor 23 is attached to the main body frame that supports the supply container 10 , and when the second motor 23 is driven, the inner transport unit 11 rotates around the drive shaft 11 a in the rotation direction B (refer to FIG. 1 ) inside the supply container 10 .
  • the rotation direction B of the inner transport unit 11 and the rotation direction A of the outer transport unit 12 are the same direction.
  • the article transport device 2 is provided with an article supply unit 24 , and the article supply unit 24 is installed above the article transport device 2 .
  • the article supply unit 24 accumulates the loaded tablet W, discharges the accumulated tablet W from a discharge port 24 a to an article loading position P 1 , and supplies the accumulated tablet W to the inner transport unit 11 at the article loading position P 1 .
  • the article supply unit 24 transports the loaded tablet W to the inner transport unit 11 , and is configured to include, for example, a linear feeder or a conveyor.
  • the article supply unit 24 has a function of supplying the tablet W according to the capacity of the inner transport unit 11 and the outer transport unit 12 to transport the tablet W.
  • the supply amount of the tablet W to the inner transport unit 11 is set according to the capacity of the article transport device 2 to transport the tablet W (for example, the number of tablets W transported per unit time).
  • the tablet W fallen to the lowest portion (lower end portion 11 c side in the inclined direction) of the article supply unit 24 moves to the highest portion (upper end portion 11 b side in the inclined direction) of the inner transport unit 11 as the inner transport unit 11 rotates, and is placed on the outer transport unit 12 .
  • the outer transport unit 12 is provided with a groove portion 12 A and a storage groove 12 B.
  • the groove portion 12 A is recessed downward from an upper surface 12 a of the outer transport unit 12 and extends in the radial direction of the outer transport unit 12 .
  • the storage groove 12 B of the present embodiment constitutes a storage portion.
  • a plurality of groove portions 12 A are provided side by side at equal intervals in the circumferential direction of the outer transport unit 12 , and these plurality of groove portions 12 A are adjacent to each other in the circumferential direction of the outer transport unit 12 with the upper surface 12 a of the outer transport unit 12 interposed therebetween.
  • the groove portion 12 A is formed so that the width in the circumferential direction gradually narrows from an inner end portion 12 n toward an outer end portion 12 m of the outer transport unit 12 in the radial direction.
  • the width of the inner end portion 12 n of the groove portion 12 A in the circumferential direction is formed to be smaller than the width when the tablets W are arranged in two in the circumferential direction, that is, the width twice the diameter of the tablet W (or smaller than the width when two tablets W are arranged vertically and horizontally in the circumferential direction), and is formed in a shape in which two tablets W are difficult to enter at the same time.
  • the storage groove 12 B is located radially outward of the outer transport unit 12 with respect to the groove portion 12 A.
  • the storage groove 12 B may be formed in a circular shape slightly larger than the tablet W in a plan view, may be recessed below a bottom surface 12 b of the groove portion 12 A, or may have the same height as that of the groove portion 12 A.
  • the storage groove 12 B is provided with a bottom wall 12 C having an annular mounting surface 12 d located below the bottom surface 12 b of the groove portion 12 A.
  • the bottom wall 12 C is formed with a circular opening portion 12 c located inside the mounting surface 12 d and through which inspection light passes. That is, the mounting surface 12 d is provided radially outward of the opening portion 12 c so as to surround the circular opening portion 12 c , and the tablet W is placed on the annular mounting surface 12 d so as to close the opening portion 12 c from above.
  • the storage groove 12 B extends upward from the bottom wall 12 C and is provided with a peripheral wall 12 D that surrounds an outer peripheral side surface Wa of the tablet W, and the tablet W is stored in the storage groove 12 B in a state of being fitted.
  • the peripheral wall 12 D of the storage groove 12 B is formed by a step between the bottom surface 12 b of the groove portion 12 A and the mounting surface 12 d of the storage groove 12 B, and a step between the upper surface 12 a of the groove portion 12 A and the mounting surface 12 d of the storage groove 12 B.
  • the opening portion 12 c is formed to have a diameter smaller than the outer diameter of the tablet W in a plan view of the outer transport unit 12 , in a state where the tablet W is stored in the storage groove 12 B, the opening portion 12 c is hidden from above, and the tablet W can be prevented from falling from the opening portion 12 c.
  • the distance from the rotation center axis of the outer transport unit 12 to the central portions of all the storage grooves 12 B is equal, and in a state where the tablet W is stored in the storage groove 12 B, the tablet W is aligned in a row in the rotation direction of the outer transport unit 12 . That is, the line connecting the central portion of the storage groove 12 B (central portion of the opening portion 12 c ) in the rotation direction is a circle. As a result, when the outer transport unit 12 rotates, the tablets W stored in the storage groove 12 B are aligned in a row in the rotation direction of the outer transport unit 12 .
  • a gap between the outer peripheral side surface Wa of the tablet W and the peripheral wall 12 D is significantly small.
  • the peripheral wall 12 D blocks the light incident on a light detection unit 32 described later from the outer peripheral side surface Wa of the tablet W.
  • the peripheral wall 12 D of the present embodiment constitutes a light-shielding portion, and the outer peripheral side surface Wa of the tablet W constitutes the outer peripheral side surface of the article.
  • the gap between the outer peripheral side surface Wa and the peripheral wall 12 D of the tablet W and a gap between the outer peripheral side surface Wa and the bottom wall 12 C of the tablet W are conditioned on the condition that the peripheral wall 12 D can prevent light from leaking from the outer peripheral side surface Wa of the tablet W or light from entering from the outer peripheral side surface Wa, and the tablet W is set to a gap in which the tablet W is surely stored in the storage groove 12 B.
  • the dimension a of the tablet W in the height direction that is, the dimension a from the mounting surface 12 d of the storage groove 12 B to the upper surface of the tablet W, is larger than the dimension b in the height direction from the mounting surface 12 d of the storage groove 12 B to the upper surface 12 a of the groove portion 12 A.
  • the upper surface of the tablet W protrudes upward from the upper surface 12 a of the groove portion 12 A.
  • the dimension a of the tablet W in the height direction may be smaller than the dimension b in the height direction from the mounting surface 12 d of the storage groove 12 B to the upper surface 12 a of the groove portion 12 A.
  • the upper surface of the tablet W is located below the upper surface 12 a of the groove portion 12 A.
  • the article transport device 2 is provided with an article regulation unit 25 .
  • the article regulation unit 25 regulates the number of tablets W to be supplied so that only one tablet W is supplied to the groove portion 12 A, and aligns the tablets W in a row in the rotation direction of the outer transport unit 12 .
  • the article regulation unit 25 is configured to include a guide plate that is curved and extended with a certain length in the rotation direction of the outer transport unit 12 and extends in the vertical direction, and is fixed to a main body frame that supports the supply container 10 .
  • the article regulation unit 25 is provided at a regulation position P 2 on the downstream side in the rotation direction of the outer transport unit 12 with respect to the article loading position P 1 .
  • the article loading position P 1 is installed on the upstream side of the article regulation unit 25 in a plan view of the article transport device 2 .
  • the rotation direction of the outer transport unit 12 and the transport direction of the tablet W are the same direction.
  • the radial dimension of the outer transport unit 12 at the inner end portion 12 n of the article regulation unit 25 and the groove portion 12 A is set to the same dimension as the diameter of the tablet W, a dimension slightly larger than the diameter of the tablet W, or a dimension slightly smaller than the diameter of the tablet W so that the tablet W does not fall from the groove portion 12 A to the inner transport unit 11 .
  • the number of tablets W supplied is regulated so that only one tablet W is supplied to the groove portion 12 A by the article regulation unit 25 .
  • the outer transport unit 12 of the present embodiment constitutes a transport unit.
  • the article transport device 2 is provided with an article adjustment unit 26 .
  • the article adjustment unit 26 is provided at an article adjusting position P 3 on the downstream side of the outer transport unit 12 in the rotation direction with respect to the article regulation unit 25 , returns the tablet W that is not located in the groove portion 12 A in the normal posture to the normal posture in the groove portion 12 A, and removes the tablet W protruding from the groove portion 12 A from the groove portion 12 A.
  • the normal posture of the tablet W is, for example, a posture in which the tablet W can smoothly move from the groove portion 12 A to the storage groove 12 B and can be stored sideways in the storage groove 12 B.
  • the article adjustment unit 26 is configured to include a brush, air blower, an exclusion plate, and the like, and in a case where the tablet W supplied to the groove portion 12 A rides on the upper surface 12 a of the outer transport unit 12 , adjusts the tablet so that the tablet has a normal posture in the groove portion 12 A, or removes the tablet from the groove portion 12 A.
  • the tablet W is removed from the groove portion 12 A.
  • the tablet W removed from the groove portion 12 A is returned to the inner transport unit 11 .
  • the article adjustment unit 26 adjusts the tablet W having a poor posture (posture correction or removal) by supplying air above the upper surface of the tablet W or by acting the exclusion plate.
  • the article transport device 2 is provided with an article guide unit 27 .
  • the article guide unit 27 is provided at an article guide position P 4 on the downstream side in the rotation direction of the outer transport unit 12 with respect to the article adjustment unit 26 , and guides the tablet W supplied to the groove portion 12 A to the storage groove 12 B along the groove portion 12 A.
  • the article guide unit 27 is configured to include a guide plate that is curved and extended with a certain length in the rotation direction of the outer transport unit 12 and extends in the vertical direction, and is fixed to a main body frame that supports the supply container 10 .
  • the article guide unit 27 is configured to include a guide plate extending with a certain length from the inner end portion 12 n toward the outer end portion 12 m of the groove portion 12 A in the rotation direction of the outer transport unit 12 , and extending in the vertical direction.
  • the upstream end portion 27 a is located on the inner transport unit 11 side from the inner end portion 12 n of the groove portion 12 A in the radial direction of the outer transport unit 12
  • the downstream end portion 27 b is located on the inner end portion 12 n side of the groove portion 12 A from the storage groove 12 B in the radial direction of the outer transport unit 12 and is located near the outer end portion 12 m of the groove portion 12 A.
  • the article guide unit 27 moves the tablets W arranged in a row in the rotation direction of the outer transport unit 12 on the inner end portion 12 n side of the storage groove 12 B at the regulation position P 2 toward the storage groove 12 B along the groove portion 12 A with the rotation of the outer transport unit 12 , and stores the tablets W in the storage groove 12 B.
  • the tablet W stored in the storage groove 12 B is transported to the article inspection unit 3 by the rotation of the outer transport unit 12 .
  • the article inspection unit 3 is provided at the article inspection position P 5 on the downstream side of the article guide position P 4 in the rotation direction of the outer transport unit 12 .
  • the article transport device 2 is provided with an article blocking unit 28 .
  • the article blocking unit 28 is provided from the middle in the rotation direction of the outer transport unit 12 of the article guide unit 27 to the downstream side of the article inspection position P 5 in the rotation direction of the outer transport unit 12 .
  • the article blocking unit 28 is configured to include a guide plate that is curved in the rotation direction of the outer transport unit 12 , extended with a certain length, and extended in the vertical direction, and is fixed to a main body frame that supports the supply container 10 .
  • the article blocking unit 28 prevents the tablet W stored in the storage groove 12 B by the article guide unit 27 from moving outward in the radial direction from the storage groove 12 B due to the centrifugal force due to the rotation of the outer transport unit 12 .
  • the article inspection unit 3 is configured to include a light irradiation unit 31 and a light detection unit 32 .
  • the article inspection unit 3 irradiates the tablet W stored in the storage groove 12 B with a broadband light L from the light irradiation unit 31 at the article inspection position P 5 from the opening portion 12 c side, and the light transmitted through the tablet W is detected by the light detection unit 32 .
  • the light irradiation unit 31 is provided with a light source 31 a , a light guide 31 b , and a condenser lens 31 c .
  • the light source 31 a is configured to include, for example, a halogen lamp in order to irradiate the tablet W to be inspected with a broadband light.
  • the light source 31 a , the light guide 31 b , and the condenser lens 31 c constitute a light source unit integrally assembled together with a case (not illustrated) in which heat radiation fins (not illustrated) are formed, and the light source unit is attached to the main body frame that supports the supply container 10 .
  • the light source unit is provided with an optical sensor (not illustrated) that measures the amount of light of the light source 31 a , and a temperature sensor (not illustrated) that measures the temperature of the light source 31 a.
  • the light guide 31 b is configured by bundling multiple glass optical fibers and guides the light from the light source 31 a to the condenser lens 31 c that collects the light.
  • the condenser lens 31 c collects the light from the light guide 31 b onto the tablet W at the article inspection position P 5 .
  • the light irradiation unit 31 emits a broadband light from the light source 31 a to the condenser lens 31 c via the light guide 31 b , adjusts the magnification of the condenser lens 31 c (position of the condenser lens 31 c , the light source 31 a , and the tablet W) so that the light irradiation unit 31 covers the entire upper surface of the tablet W at the article inspection position P 5 by the condenser lens 31 c , and efficiently irradiates the tablet W with the light from the light source 31 a at the article inspection position P 5 .
  • the light detection unit 32 constitutes a light detection unit integrally assembled with an optical fiber 32 a and a spectroscope 32 b , and is integrally held by a holding means (not illustrated) and attached to the main body frame that support the supply container 10 .
  • the light transmitted through the tablet W at the article inspection position P 5 enters from the end surface (incident opening portion) of the incident surface as the light receiving unit of the optical fiber 32 a .
  • the spectroscope 32 b performs spectroscopy by glazing using the difference in the diffraction angle depending on the wavelength of the light.
  • the article inspection unit 3 processes the signal of the spectral characteristics obtained by the light detection unit 32 , and determines the quality of the tablet W from the result of processing the signal.
  • a light-shielding plate 39 having an opening portion 39 a through which light can pass may be installed between the storage groove 12 B and the light detection unit 32 (the light-shielding plate 39 is illustrated by a virtual line in FIG. 6 ).
  • the detoured light from the outer peripheral side surface Wa (refer to FIG. 4 ) of the tablet W toward the light detection unit 32 can be more reliably blocked by the peripheral wall 12 D and the light-shielding plate 39 , and appropriate light analysis can be more reliably performed by the light detection unit 32 .
  • an NG product collection unit 35 As illustrated in FIG. 1 , an NG product collection unit 35 , an all product collection unit 36 , and an OK product collection unit 37 are provided on the downstream side in the rotation direction of the outer transport unit 12 from the article inspection position P 5 at predetermined intervals in the rotation direction of the outer transport unit 12 .
  • the article inspection unit 3 determines that the tablet W is a defective product (NG product)
  • the tablet W determined to be the defective product is transported to an NG product selection position P 6 on the downstream side in the rotation direction of the outer transport unit 12 with respect to the article inspection unit 3
  • the article transport device 2 blows air onto the tablet W from the inside of the outer transport unit 12 in the radial direction and discharges the tablet W from the storage groove 12 B to the NG product collection unit 35 .
  • the tablet W may be picked up from the outside of the outer transport unit 12 in the radial direction at the NG product selection position P 6 and discharged from the storage groove 12 B to the NG product collection unit 35 .
  • the article inspection unit 3 determines that the tablet W is a normal product (OK product)
  • the tablet W determined to be the normal product is transported from the NG product selection position P 6 to an OK product selection position P 7 , for example, air is blown onto the tablet W from the inside of the outer transport unit 12 in the radial direction and the tablet W is discharged from the storage groove 12 B to the OK product collection unit 37 .
  • the tablet W may be picked up from the outside of the outer transport unit 12 in the radial direction at the OK product selection position P 7 and discharged from the storage groove 12 B to the OK product collection unit 37 .
  • the all product collection unit 36 is provided at a total discharge position P 8 between the NG product selection position P 6 and the OK product selection position P 7 in the rotation direction of the outer transport unit 12 .
  • the all product collection unit 36 collects a tablet W that could not be inspected normally or failed to be discharged, such as a tablet W failed to discharge NG, at the start of operation of the article inspection apparatus 1 , after the return operation after an emergency stop, and the like, and for example, blows air onto the tablet W from the inside of the outer transport unit 12 in the radial direction and discharges the tablet W from the storage groove 12 B to the all product collection unit 36 .
  • the tablet W may be picked up from the outside of the outer transport unit 12 in the radial direction at the total discharge position P 8 and discharged from the storage groove 12 B to the all product collection unit 36 .
  • a confirmation sensor 38 may be provided at a confirmation position P 9 on the downstream side of the NG product collection unit 35 in the rotation direction of the outer transport unit 12 , and the confirmation sensor 38 may be used to confirm whether or not a defective product is discharged at the NG product selection position P 6 . In this manner, the reliability of selection the defective product can be improved.
  • the spectrum of the spectral characteristics obtained by the light detection unit 32 of the article inspection unit 3 is displayed on a display device (not illustrated) and is illustrated in the upper part of FIG. 7 .
  • FIG. 7 the spectrum of a plurality of tablets W is superimposed and graphed.
  • a black-painted spectrum indicated by ZA is a spectrum of the defective product
  • a blank portion indicated by ZB is a spectrum of the normal product.
  • the article inspection unit 3 standardizes the measured values for each wavelength of the measured spectrum, and determines whether the article is a normal product or a defective product based on the standardized values.
  • the article inspection unit 3 calculates, for example, statistical values such as an average value, a maximum value, a minimum value, and a standard deviation for each wavelength of the measured values of the wavelengths in a measurement range at the wavelengths at predetermined intervals, and standardizes by calculating (measured value ⁇ average value)/standard deviation and the like, as illustrated in the lower part of FIG. 7 .
  • statistical values such as an average value, a maximum value, a minimum value, and a standard deviation for each wavelength of the measured values of the wavelengths in a measurement range at the wavelengths at predetermined intervals
  • standardizes by calculating (measured value ⁇ average value)/standard deviation and the like, as illustrated in the lower part of FIG. 7 .
  • There are various methods for standardization but when the statistical value is calculated using the measurement result using the OK product and the standardization is calculated from the statistical value, a method that does not increase the fluctuation of the values when the measured values of OK products not used in the calculation are standardized is selected.
  • the standardization calculation may be (measured value ⁇ average value)/(maximum value ⁇ minimum value), (measured value ⁇ maximum value)/standard deviation, or the like.
  • the statistical value is obtained from the result of measurement using a normal product known to be normal.
  • the statistical value of the normal product may be used as the statistical value, and in a case where the spectral spectrum of the normal product has changed due to a change in lot or the like, the statistical value may be calculated by adding the latest measured value of the normal product to the measured value of the same tablet W inspected in the past.
  • a numerical value that can be used for standardization such as spectral characteristics and the variation is known as a known value instead of a statistical value
  • the value may be used for standardization.
  • the spectrum illustrated in the upper part of FIG. 7 is converted as illustrated in the lower part.
  • the black part indicated by ZA′ is the standardized value of the defective product
  • the blank part indicated by ZB′ is the standardized value of the normal product, and compared with the case of the spectrum, it is possible to easily determine whether the article is a normal product or a defective product.
  • the graph display format illustrated in FIG. 7 is an example, and can be expressed in various display formats such as a radar chart and expression by shades of color.
  • the radar chart displays the results of the calibration curve, standardized values for each spectral wavelength, and for example, thickness values measured by other measuring instruments.
  • the color, line thickness, and display style may be changed and displayed depending on the case where the determination is OK, the case where the determination is NG, or the level of NG.
  • the number of display data for example, the latest 1 item, the latest 100 items, and the like
  • the type of data to be displayed for example, OK only, NG only, all, and the like
  • the article inspection unit 3 sets one predetermined threshold value in the entire wavelength range of the measurement range, and in a case where the standardized value of the measured value exceeds the threshold value at any wavelength, it is determined that the article is a defective product.
  • the predetermined threshold value is determined from the value by calculating a standardized value from a spectrum of a plurality of normal products as illustrated in the lower part of FIG. 7 .
  • the predetermined threshold value is set to twice the maximum value, twice the minimum value of the value of the normal product after standardization, an intermediate value between the maximum value of the normal product and the minimum value of the defective product, or a value capable of identifying a defective product.
  • these values may be automatically set.
  • the display data to be determined to be OK may be selected, and the threshold value may be automatically readjusted so that the determination is OK. At this time, it may be selected whether to recalculate the statistical values used for standardization.
  • the display data determined to be NG may be selected, and the threshold value may be automatically readjusted so that the determination is OK.
  • spectral information or the result of using spectrum conversion processing such as absorbance calculation, smoothing processing, or differential calculation (may be multiple stages) may be used.
  • the absorbance calculation is processing of calculating the attenuation of the work result from the reference when the spectral characteristics of the light used to measure the tablet W and the spectral characteristics when the prototype is measured are used as references, and the spectral characteristics when the tablet W is measured are used as the work result.
  • the smoothing processing is processing of smoothing data of each of the wavelengths adjacent to each other by averaging, filtering processing (load moving average method), or the like.
  • the differential calculation is difference processing between data at fixed intervals by taking over a specific rule such as adjacent wavelength data and wavelength data at specific intervals.
  • a plurality of spectra of the result of such conversion processing may be used to determine whether the article is a normal product or a defective product.
  • the predetermined threshold value may be different depending on the conversion processing.
  • a predetermined threshold value may be switched depending on information other than the spectrum, for example, the ambient temperature, the temperature of the spectroscope 32 b , the temperature of the device, the amount of light of the light source 31 a , and the like.
  • the normalization value and limit at 20° C. to 30° C. and the normalization value and limit at 30° C. to 35° C. are measured and calculated in advance, the temperature change is observed during the inspection, the normalization value and the limit are switched depending on the value, and it is determined whether the article is a normal product or a defective product.
  • the predetermined threshold value is provided with an upper limit threshold value and a lower limit threshold value, and in a case where the standardized value of the measured value for any wavelength exceeds the upper limit threshold value, or in a case where the standardized value of the measured value for any wavelength is below the lower limit threshold value, the article inspection unit 3 may determine that the article is a defective product.
  • the upper limit threshold value and the lower limit threshold value may be, for example, twice the maximum value of the normal product after standardization as the upper limit threshold value, twice the minimum value as the lower limit threshold value, or may be set by another method. In addition, these values may be automatically set.
  • the lower limit threshold value may be eliminated and the threshold value may be set to one.
  • a predetermined threshold value may be set for each divided range of wavelengths by dividing the wavelength direction.
  • the wavelength is divided by the boundary wavelength illustrated by C in the figure
  • the threshold value of the shorter wavelength is set as the first upper limit threshold value and the first lower limit threshold value
  • the threshold value of the longer wavelength is set as the second upper limit threshold value and the second lower limit threshold value.
  • the number of divisions may be two or more.
  • the threshold value is set to be large in the region where the influence value is large, the threshold value is set to be small in the region where the influence value is small, and it is possible to accurately determine whether the article is a normal product or a defective product.
  • a range where the determination by the threshold value is not performed may be provided.
  • a spectrum measured in a specific range of wavelengths illustrates a waveform having a different tendency from a spectrum measured in another range of wavelengths without performing determination by a threshold value.
  • the article inspection unit 3 standardizes the measured value for each wavelength of the measured spectrum, and determines whether the article is a normal product or a defective product based on the standardized values.
  • the measured value for each wavelength of the measured spectrum is standardized, and the standardized value is used to determine whether the article is a normal product or a defective product. Therefore, when an unspecified foreign substance is contained, the change in the spectrum can be sensitively and stably detected, and the article can be determined as a defective product.
  • the article inspection unit 3 calculates the statistical value of the measured value for each wavelength of the spectrum of the spectral characteristics of the light detected by the light detection unit 32 , and standardizes the measured value for each wavelength based on the statistical value.
  • the statistical value of the measured value for each wavelength of the spectrum of the spectral characteristics of the light detected by the light detection unit 32 is calculated, and the measured value for each wavelength is standardized based on the statistical value. Therefore, when an unspecified foreign substance is contained, the change in the spectrum can be sensitively and stably detected, and the article can be determined as a defective product.
  • the article inspection unit 3 determines whether the tablet W is a normal product or a defective product based on the threshold value for the standardized value.
  • the article inspection unit 3 is provided with an upper limit threshold value which is an upper limit value for determining that the standardized value is normal, and a lower limit threshold value which is a lower limit value for determining that the standardized value is normal.
  • the article inspection unit 3 determines whether the tablet W is a normal product or a defective product based on the threshold value for the absolute value of the standardized value.
  • the article inspection unit 3 sets a threshold value for the standardized value for each range divided in the wavelength direction.
  • the threshold value is set for each range divided in the wavelength direction. Therefore, depending on the characteristics of the tablet W, a normal range can be narrowed or widened for each range of wavelengths, and it is possible to accurately determine whether the tablet W is a normal product or a defective product.
  • the article inspection unit 3 is provided with a range of wavelengths in which it is not determined whether the tablet W is a normal product or a defective product by using the threshold value.
  • the range of wavelengths is provided in which it is not determined whether the tablet W is a normal product or a defective product based on the threshold value. Therefore, a range of wavelengths that is not related to the determination of whether the tablet W is a normal product or a defective product can be set as a range in which it is not determined whether the tablet W is a normal product or a defective product, and it is possible to accurately determine whether the tablet W is a normal product or a defective product by suppressing the influence of the value in the range of wavelengths that is not related to the determination.
  • the threshold value is set based on the standardized value of the measured value of the normal product of the tablet W.
  • the threshold value is set based on the standardized value of the measured value of the normal product of the tablet W. Therefore, the threshold value can be set by reflecting the characteristics of the normal product, and it is possible to accurately determine whether the tablet W is a normal product or a defective product.
  • the article inspection unit 3 standardizes the value of the result obtained by performing the spectrum conversion processing on the spectrum of the spectral characteristics of the light detected by the light detection unit 32 for each wavelength, and determines whether the tablet W is a normal product or a defective product based on the standardized value.
  • the value of the result obtained by performing the spectrum conversion processing on the spectrum of the spectral characteristics of the light detected by the light detection unit 32 is standardized for each wavelength, and it is determined whether the tablet W is a normal product or a defective product based on the standardized value. Therefore, when an unspecified foreign substance is contained, the change in the spectrum can be sensitively and stably detected, and the tablet W can be determined as a defective product.
  • the case where the light of the light irradiation unit 31 is transmitted to the tablet W and the quality of the tablet W is inspected based on the spectral characteristics of the transmitted light is illustrated, and the same can be applied even in a case where the light of the light irradiation unit 31 is reflected on the tablet W and the quality of the tablet W is inspected based on the spectral characteristics of the reflected light.
  • the measured spectral information can be stored, the spectral conversion processing such as absorbance calculation, smoothing processing, and differential processing can be performed from the spectral information after the measurement, calculation processing to create a calibration curve can be performed by the magnitude of a specific peak, machine learning, and the like, and complex discrimination processing such as a discrimination method using a calibration curve can be performed.
  • the configuration of the article transport device 2 illustrated in FIGS. 1 to 5 is an example, and it goes without saying that another configuration may be used.
  • the tablet W may be sequentially transported to the article inspection position P 5 of the article inspection unit 3 .

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US20210356406A1 (en) * 2020-05-15 2021-11-18 Kla Corporation Apparatus and method for rotating an optical objective
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US20210199594A1 (en) * 2018-10-10 2021-07-01 Ckd Corporation Inspection device, blister packaging machine, and blister sheet manufacturing method
JP2020060536A (ja) 2018-10-12 2020-04-16 ウシオ電機株式会社 錠剤検査装置及び錠剤検査方法
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